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Supporting the Implementation of the Common Core State Standards in Mathematics
What are its implications for teaching and
evaluating mathematics instruction
for our nation? New York State?
Your district?
6/30/2011
WARNER CENTER FOR PROFESSIONAL DEVELOPMENT
& EDUCATION REFORM UNIVERSITY OF ROCHESTER
Mathematics OutreachJudi Fonzi, Ph.D.
Cindy Callard, Ed.D.
Stephanie Martin
Jane LaVoie
6/30/2011
The Warner Center's Mission
To foster and support research-based
innovative professional practice and
systemic change. • This is accomplished through professional
development and systemic reform initiatives based on current research and collaboration with our partners.
6/30/2011
Goals for This Session
• Share Updated information about CCSSM• Experience the mathematical practices• Share ideas about beginning to implement• Discuss next steps• Provide links to resources
6/30/2011
The Common Core Standards in Mathematics:
Why is this so important?• This initiative will affect 45.1 million students
across the United States• A common set of academic standards for
students will create a common set of rigorous student achievement expectations across the country
• Opportunities for states to pool resources on supporting materials and assessments
6/30/2011
What’s different about CCSSM?
• Designed as a tool to raise achievement• Provides more clarity on what students are
expected to learn• Provides an opportunity for mathematics
education to be more consistent across the states in our nation
• Serves as a guide for teachers and parents in preparing students for the challenges of the workplace or post secondary study
Source: NCTM 20106/30/2011
What’s different about CCSSM?
• These Standards are not intended to be new names for old ways of doing business. They are a call to take the next step.
• It is time for states to work together to build on lessons learned from two decades of standards based reforms.
• It is time to recognize that standards are not just promises to our children, but promises we intend to keep.
Source: CCSS (2010, p. 5)6/30/2011
CCSSM Characteristics• Aligned with college and career expectations—
prepare all students for success on graduating from high school
• Internationally benchmarked so that all students are prepared for succeeding in our global economy and society
• Includes rigorous content and application of higher-order skills—an ability to apply concepts and skills to new situations is expected
• Research based• Organized around 8 Mathematical Practices that
should be intertwined with content6/30/2011
Common Core State Standards:
Designed to raise achievement• Cleared out the clutter from the basement and
attic of the curriculum—fewer and more rigorous• Opportunities to not only deepen
understandings, but engage in new mathematics ideas
• Provides depth, focus, coherence nationally• Opportunity to align curriculum, instruction and
assessment
6/30/2011
FOCUS
• Key Ideas, understandings and skills are identified
• Deep learning of concepts is emphasized• Provides adequate time to devote to a
topic and learning it well• Counters the “mile wide, inch deep”
criticism leveled at most U.S. standards
6/30/2011
COHERENCE• Articulated progressions of topics and
performances that are developmental and connected to other progressions—designed around research-based learning progressions (NC State, University of Arizona)
• Conceptual understanding and procedural skills stressed equally
• NCTM states coherence also means that instruction, assessment, and curriculum are aligned
6/30/2011
Standards for Mathematical Content• Counting and Cardinality (K)
• Operations and Algebraic
Thinking (K-5)
• Number and Operations in
Base Ten (K-5)
• Measurement and Data (K-5)
• Geometry (K-HS)
• Number and Operations –
Fractions (3-5)
• Ratios and Proportional
Relationships (6-7)
• The Number System (6-8)
• Expressions and Equations (6-8)
• Statistics and Probability (6-HS)
• Functions (8-HS)
• Number and Quantity (HS)
• Algebra (HS)
• Modeling (HS)
6/30/2011
Where are we in NYS?
• Present approach—Shopping Cart—all is equally important in curriculum, instruction and assessment
• Strands are separated, not integrated• When the going gets tough, move on
(Lots to cover!!)• The process standards are hardly included
in assessments
6/30/2011
Why do we need to make changes in our present content?• The Grain size is a major issue• “Strands” are too big and vague; e.g. number• Present lessons are too small. We need to plan in units.• We need to stop managing lessons and start managing
units—engage students with particular ideas in service of the big ideas
• Content across grades must reflect what is mathematically meaningful and what is known from research and practice about learning mathematics
• Need opportunities for students to develop conceptual understandings
• Need to engage students in mathematical practices
6/30/2011
70%Intensive Focus
20%Rethink and
Link
10%Sampling
K‐2examples
Addition and Subtraction concepts, skills and problems
Geometry and measurement
PatternsStatistics/DataProbabilityEstimating computation
3‐5examples
Multiplication and division of whole numbers and fractions, balance of concepts, skills, problem solving
Area, volume PatternsStatistics/DataProbability
6‐8examples
Proportional reasoning and linearityAlgebraGeometric measurement
Quantitative relationships and functions
Statistics
6/30/2011
Everyone's Time and Effort0%
20%
40%
60%
80%
100%
Sample
Rethink & Link
Intensive Focus
Focus in K-5: The new version
6/30/2011
What do we need to be doing?Bringing the Common Core to Life: A Webinar from NYSED (April 28,
2011—David Coleman)
• Teach less, learn more; Have a deep focus on arithmetic in K-8
• Develop fluency, understanding and be able to apply in novel situations
• Stop treating standards like a checklist• Stop letting textbooks determine what you focus on• Stop making things easy!!—Change what we think
of our practice and kids!!• Emphasize critical thinking skills
6/30/2011
STANDARDS FOR MATHEMATICAL PRACTICE
“The Standards for Mathematical Practice
describe the varieties of expertise that
mathematics educators at all levels should
seek to develop in their students. These
practices rest on important ‘processes and
proficiencies’ with long standing
importance in mathematics education.” (CCSS, 2010)
6/30/2011
Standards for Mathematical Practice
1. Make sense of problems and persevere in solving them
2. Reason abstractly and quantitatively3. Construct viable arguments and critique
the reasoning of others4. Model with mathematics
6/30/2011
Standards for Mathematical Practice
5. Use appropriate tools strategically6. Attend to precision7. Look for and make use of structure8. Look for and express regularity in
repeated reasoning
6/30/2011
Standards for Mathematical Practice
• Describe the thinking processes, habits of mind and dispositions that students need to develop a deep, flexible, and enduring understanding of mathematics; in this sense, they are also a means to an end.
MP1. Make sense of problems“…they [students] analyze givens, constraints, relationships and goals…they monitor and evaluate their progress and change course if necessary…and the continually as themselves ‘Does this make sense?’ ”
6/30/2011
Standards for Mathematical Practice
AND…Describe mathematical content students
need to learn.
MP1. Make sense of problems
“…students can explain correspondences between equations, verbal descriptions, tables, and graphs or draw diagrams of important features and relationships, graph data, and search for regularity or trends.”
6/30/2011
Standards for [Student] Mathematical Practice
• “Not all tasks are created equal, and different tasks will provoke different levels and kinds of student thinking.”
Stein, Smith, Henningson & Silver, 2000
• “The level and kind of thinking in which students engage determines what they will learn.”
Hiebert, Carpenter, Fenemma, Fuson, Werner, Murray, Oliver and Hannah, 1997
6/30/2011
Do all students have the opportunity to engage in mathematical tasks
that promote students’ attainment of the mathematical practices
on a regular basis?
So how can we begin to implement these new ideas?
6/30/2011
Helping all develop a vision of what teaching and learning should look like in a
CCSSM classroom
• Why an image?– Many of our own experiences do not reflect
the latest research on the teaching and learning of mathematics
– Teachers need to be reflective and craft their own practice to support student learning
– Administrators need to know what to look for in a CCSSM supportive class
6/30/2011
Teaching Mathematics Through the Mathematical Practices
The Standards for Mathematical Practice describe the ways in which developing student practitioners of the discipline of mathematics increasingly ought to engage with the subject matter as they grow in mathematical maturity and expertise throughout the elementary, middle and high school years. Designers of curricula, assessments, and professional development should all attend to the need to connect the mathematical practices to mathematical content in mathematics instruction.
6/30/2011
Do the Math!
6/30/2011
Video: Multiplying Fractions with Mixed Numbers
Sixth grade, CMP lesson: Bits and Pieces II, Problem 3.3
Developing an Algorithm for Fraction Multiplication
6/30/2011
Viewing the Video
Identify evidence of students using the mathematical practices.
6/30/2011
Video: Graphing Linear Functions
• TIMSS video
• Eighth grade, review lesson following unit of work on this topic; 36 students enrolled
6/30/2011
Lesson Graph
6/30/2011
Viewing the Video
Identify evidence of students using the mathematical practices.
http://timssvideo.com/58
6/30/2011
NYS Timeline (As of 6/27/11)• 2010-2011 • Student achievement expectations are based on the
2005 ELA and Mathematics Learning Standards and Core Curricula.• Districts begin developing curricula aligned to CCSS (Jan. 2011) with a goal
of implementing the new state curricula in Sept. 2012. 2011-2012 • Student achievement expectations are based on the 2005 ELA and Mathematics Learning Standards.
• Districts continue to develop curricula and begin implementing instruction aligned to CCSS.
• The 3-8 Testing program and Regents examinations in ELA and Mathematics are aligned to the 2005 ELA and Mathematics Learning Standards.
• 2012-2013 • Student achievement expectations are based on CCSS and state standards as added.
• CCSS Interim Assessments are administered. • Partnership for Assessment of Readiness for College and Careers (PARCC)
field testing will occur.• 2013-2014 • Student achievement expectations are based on CCSS and
state standards as added. 2014-15 • CCSS PARCC assessments are operational.
6/30/2011
So what do we need to move forward?
• Well aligned and coordinated attention to curriculum, assessment and instruction
• Professional development that effectively support teachers in their implementation of the shared vision of CCSSM and NCTM
• Opportunities for teachers to enhance their understandings of mathematics that encompasses and transcends what they expect of their own students
• Rethinking of mathematics in terms of big ideas and connections rather than a checklist
6/30/2011
What else?
• Talk with others---you are not alone; NYS is not alone; this is a national effort!!!
• Sorry, there’s no easy fix!!!
6/30/2011
Possible Next Steps for Your District
• Look forward, not backwards—don’t spend time developing crosswalks—remember the size of the grain
• When you look at the CCSSM focus on the big ideas and domains; Look at the progressions within and across domains
• Look at how the math standards are related to Language Arts and for connections between them (in particular the practices)
• Implement changes in content at the preK-2 level now
6/30/2011
• Have all teachers provide experiences for students to begin to implement the mathematical practices
• Provide opportunities for students to engage in tasks that have a high level of cognitive demand
• Support teachers, administrators and other key players in attending professional development opportunities to unpack the standards, deepen their own mathematical content knowledge, etc.
• Collaborate with others in your own district to examine student work to look for evidence of the mathematical practices
Possible Next Steps for Your District
6/30/2011
Possible Next Steps for Your District
• September 2011 through April 2012 continue with the old NYS content standards
• May/June 2012 switch to CCSSM—are their any major ideas students at your grade level may be missing???
• Don’t buy anything—there are no easy fixes to existing resources
• For NSF curricula look to the curriculum developers• John King—Dare to focus on what’s important; Deepen
your own understandings; engage your colleagues in conversations; work to incorporate practices
6/30/2011
Possible Next Steps for Teachers
• Build on the knowledge learners already have• Expose and discuss common misconceptions• Use higher-order questions• Use cooperative small group work• Emphasize reasons rather than answers• Use rich collaborative tasks• Create connections between topics• Use technology in appropriate ways
Phil Daro—one of the authors of CCSSM6/30/2011
How can we continue to support you in this process?
Developing a cadre of CCSSM leaders to provide
support in their own districts:RCSDRegionally if possible
Providing Professional Development Opportunities:Partnering with BOCESSummer Opportunities with Warner
Continuing to develop and maintain partnerships with
local districts to support their implementations of
mathematics programs
Providing a link to our website with updated resources6/30/2011
References• NCSM • NCTM• Webinar from NYSED (David Coleman)• CCSS• TIMMS Video• Phil Daro—one of the authors of CCSSM• Connected Mathematics Project• New York State Education Department
6/30/2011
Warner Center for Professional Development and Reform
http://it.warner.rochester.edu/content/warnercenter/
6/30/2011